summaryrefslogtreecommitdiff
path: root/library/qpeapplication.cpp
Side-by-side diff
Diffstat (limited to 'library/qpeapplication.cpp') (more/less context) (ignore whitespace changes)
-rw-r--r--library/qpeapplication.cpp3
1 files changed, 2 insertions, 1 deletions
diff --git a/library/qpeapplication.cpp b/library/qpeapplication.cpp
index c562f6c..2ef60d5 100644
--- a/library/qpeapplication.cpp
+++ b/library/qpeapplication.cpp
@@ -389,129 +389,129 @@ static void setTreble( int t = 0, int percent = -1 )
keepRunning() function indicates whether the application will
continue running after it's processed the last \link qcop.html
QCop\endlink message. This can be changed using setKeepRunning().
A variety of signals are emitted when certain events occur, for
example, timeChanged(), clockChanged(), weekChanged(),
dateFormatChanged() and volumeChanged(). If the application receives
a \link qcop.html QCop\endlink message on the application's
QPE/Application/\e{appname} channel, the appMessage() signal is
emitted. There are also flush() and reload() signals, which
are emitted when synching begins and ends respectively - upon these
signals, the application should save and reload any data
files that are involved in synching. Most of these signals will initially
be received and unfiltered through the appMessage() signal.
This class also provides a set of useful static functions. The
qpeDir() and documentDir() functions return the respective paths.
The grabKeyboard() and ungrabKeyboard() functions are used to
control whether the application takes control of the device's
physical buttons (e.g. application launch keys). The stylus' mode of
operation is set with setStylusOperation() and retrieved with
stylusOperation(). There are also setInputMethodHint() and
inputMethodHint() functions.
\ingroup qtopiaemb
*/
/*!
\fn void QPEApplication::clientMoused()
\internal
*/
/*!
\fn void QPEApplication::timeChanged();
This signal is emitted when the time changes outside the normal
passage of time, i.e. if the time is set backwards or forwards.
*/
/*!
\fn void QPEApplication::clockChanged( bool ampm );
This signal is emitted when the user changes the clock's style. If
\a ampm is TRUE, the user wants a 12-hour AM/PM clock, otherwise,
they want a 24-hour clock.
*/
/*!
\fn void QPEApplication::volumeChanged( bool muted )
This signal is emitted whenever the mute state is changed. If \a
muted is TRUE, then sound output has been muted.
*/
/*!
\fn void QPEApplication::weekChanged( bool startOnMonday )
This signal is emitted if the week start day is changed. If \a
startOnMonday is TRUE then the first day of the week is Monday; if
\a startOnMonday is FALSE then the first day of the week is
Sunday.
*/
/*!
- \fn void QPEApplication::dateFormatChanged()
+ \fn void QPEApplication::dateFormatChanged(DateFormat)
This signal is emitted whenever the date format is changed.
*/
/*!
\fn void QPEApplication::flush()
###
*/
/*!
\fn void QPEApplication::reload()
*/
/*!
\fn void QPEApplication::appMessage( const QCString& msg, const QByteArray& data )
This signal is emitted when a message is received on this
application's QPE/Application/<i>appname</i> \link qcop.html
QCop\endlink channel.
The slot to which you connect this signal uses \a msg and \a data
in the following way:
\code
void MyWidget::receive( const QCString& msg, const QByteArray& data )
{
QDataStream stream( data, IO_ReadOnly );
if ( msg == "someMessage(int,int,int)" ) {
int a,b,c;
stream >> a >> b >> c;
...
} else if ( msg == "otherMessage(QString)" ) {
...
}
}
\endcode
\sa qcop.html
Note that messages received here may be processed by qpe application
and emitted as signals, such as flush() and reload().
*/
/*!
Constructs a QPEApplication just as you would construct
a QApplication, passing \a argc, \a argv, and \a t.
For applications, \a t should be the default, GuiClient. Only
the Qtopia server passes GuiServer.
*/
QPEApplication::QPEApplication( int & argc, char **argv, Type t )
: QApplication( argc, argv, t )
{
d = new QPEApplicationData;
d->loadTextCodecs();
d->loadImageCodecs();
int dw = desktop() ->width();
if ( dw < 200 ) {
setFont( QFont( "helvetica", 8 ) );
AppLnk::setSmallIconSize( 10 );
AppLnk::setBigIconSize( 28 );
}
@@ -1707,100 +1707,101 @@ void QPEApplication::tryQuit()
{
QCopEnvelope e( "QPE/System", "closing(QString)" );
e << d->appName;
}
#endif
processEvents();
quit();
}
/*!
\internal
User initiated quit. Makes the window 'Go Away'. If preloaded this means
hiding the window. If not it means quitting the application.
As this is user initiated we don't need to check state.
*/
void QPEApplication::hideOrQuit()
{
processEvents();
// If we are a preloaded application we don't actually quit, so emit
// a System message indicating we're quasi-closing.
if ( d->preloaded && d->qpe_main_widget )
#ifndef QT_NO_COP
{
QCopEnvelope e("QPE/System", "fastAppHiding(QString)" );
e << d->appName;
d->qpe_main_widget->hide();
}
#endif
else
quit();
}
#if defined(QT_QWS_IPAQ) || defined(QT_QWS_SL5XXX)
// The libraries with the skiff package (and possibly others) have
// completely useless implementations of builtin new and delete that
// use about 50% of your CPU. Here we revert to the simple libc
// functions.
void* operator new[]( size_t size )
{
return malloc( size );
}
void* operator new( size_t size )
{
return malloc( size );
}
void operator delete[]( void* p )
{
free( p );
}
void operator delete[]( void* p, size_t /*size*/ )
{
free( p );
}
+
void operator delete( void* p )
{
free( p );
}
void operator delete( void* p, size_t /*size*/ )
{
free( p );
}
#endif
#if ( QT_VERSION <= 230 ) && !defined(SINGLE_APP)
#include <qwidgetlist.h>
#ifdef QWS
#include <qgfx_qws.h>
extern QRect qt_maxWindowRect;
void qt_setMaxWindowRect(const QRect& r )
{
qt_maxWindowRect = qt_screen->mapFromDevice( r,
qt_screen->mapToDevice( QSize( qt_screen->width(), qt_screen->height() ) ) );
// Re-resize any maximized windows
QWidgetList* l = QApplication::topLevelWidgets();
if ( l ) {
QWidget * w = l->first();
while ( w ) {
if ( w->isVisible() && w->isMaximized() ) {
w->showMaximized();
}
w = l->next();
}
delete l;
}
}
#endif
#endif